CN101126629A

CN101126629A - On-line measuring system using optical fiber grating synthetic wave for interfering step height

Info

Publication number: CN101126629A
Application number: CNA2007101224033A
Authority: CN
Inventors: 谢芳; 张琳
Original assignee: Beijing Jiaotong University
Current assignee: Beijing Jiaotong University
Priority date: 2007-09-25
Filing date: 2007-09-25
Publication date: 2008-02-20

Abstract

The utility model discloses an on-line measuring system for interference step height in composite wave from optical fiber raster. A composite optical fiber interferometer is built by making use of the Bragg wavelength reflective property in the optical fiber raster. The composite interferometer comprises two optical fiber Michelson interferometers with almost coincident light paths. A Michelson interferometer is used for measuring, and the other is used for stabilizing the system. The impact on the measuring system brought by the environmental interference is corrected through the feedback control compensation, so that the system is applicable to online measuring. Three lasers emit lights of slightly different wavelength but within 1550nm waveband. Because of the effects of the optical fiber raster reflecting Bragg wavelength and self-chirped optical fiber raster reflecting the specific spectrum, a wavelength acts on the stabilizing interferometer for stabilizing the measuring system, and the other two wavelengths act on the measuring interferometer to produce composite wave interference for actual measurement. Different composite wavelengths can be gained by regulating the two wavelengths acting on the measuring interferometer; and the measurement of different step heights can be carried out.

Description

Utilize the synthetic wave for interfering step height on-line measurement system of fiber grating

Technical field

The present invention relates to a kind of synthetic wave for interfering step height measuring system of utilizing fiber grating, particularly relate to a kind of bench height measuring system that is applicable to on-line measurement, belong to field of optical measuring technologies.

Background technology

[1] D.P.Hand, T.A.Carolan, J.S.Barton, and J.D.C.Jones, optics letter (Optics Letters),, the 18th volume, the 16th phase, 1361-1363 page or leaf in 1993.The principle of work of prior art document [1] as shown in Figure 1, behind the light process faraday isolator and optical fiber 50:50 coupling mechanism that semiconductor laser sends, arrive measuring head, measuring head is a Feisuo interferometer, part light is reflected conduct with reference to light by fiber end face, after another part light focuses on through GRIN Lens, project on the measured surface, come back in the system and by measured surface reflection and to interfere with reference light, interference signal is surveyed by detector D1, and the phase decision of interference signal is in vertical height of measured surface measured point; The drive current that changes this laser instrument is to change the glow frequency of laser instrument, light with four kinds of different frequencies is measured same point, obtain four interference signals, because incident light wave frequency difference, the phase place of four interference signals are just different, regulate drive current, make the phase differential pi/2 of adjacent two interference signals, by following formula, can demodulate the optical path difference D of this point, promptly finish the measurement of single-point:

D = \frac{c}{4 πv} \tan^{- 1} (\frac{I_{4} - I_{2}}{I_{1} - I_{3}})

I _n(n=1,2,3,4) are the intensity of the n time interference signal, and c is the light velocity, and v is the incident light frequency.

Stepper motor drives measuring head transversal scanning measured surface again, promptly finishes the measurement to measured surface.

[2] Dejiao Lin, Xiangqian Jiang, Fang Xie, Wei Zhang, Lin Zhang and IanBennion, optics express train (Optics Express),, the 12nd volume, the 23rd phase, 5729-5734 page or leaf in 2004.The principle of work of prior art document [2] as shown in Figure 2, sending wavelength by semiconductor laser is λ ₀Light be divided into two-way after through two 3dB-coupling mechanisms, the one tunnel is reflected by fiber grating, another road is reflected by reference mirror.The two-way reflected light is through meeting once more behind the 3dB-coupling mechanism and interfering, interference signal is through behind the gyroscope, reflected by another fiber grating, pass through gyroscope once more, surveyed by the PIN detector then, the signal that this detector detects is handled the length that the rear drive piezoelectric ceramic tube is regulated the reference arm of fibre optic interferometer through servo circuit, makes two interference arms stablizing interferometer be in quadrature (phase differential is a pi/2) all the time, thereby realizes stablizing the purpose of this interferometer.

The wavelength X that tunable laser is sent _mVariable light is divided into two-way after through two optical fiber 3dB-coupling mechanisms, one the tunnel through getting back in the interferometer once more by measuring mirror reflection again behind the optical fiber self-focus lens, get back in the interferometer once more by the reference mirror reflection again behind another road process optical fiber self-focus lens, meet behind the two-way light process 3dB-coupling mechanism, form interference signal, behind this interference signal process gyroscope and the fiber grating, surveyed, promptly measure the displacement of measuring mirror through phase analysis again by the PIN detector.

The problem and shortage that above-mentioned two prior aries exist is:

1, measuring system is disturbed sensitivity to ambient vibration and temperature drift etc., is not suitable for on-line measurement.

2, the bench height of Ce Lianging is subjected to the restriction of incident light wave length λ, and measurable bench height only is the hundreds of nanometer less than λ/2, can't measure to the bench height of hundreds of micron tens.

Purpose of the present invention is exactly to propose a kind of synthetic wave for interfering step height on-line measurement system that utilizes fiber grating at the problem and shortage of prior art existence.

Summary of the invention

The objective of the invention is to be achieved through the following technical solutions.

A kind of synthetic wave for interfering step height on-line measurement system that utilizes fiber grating, this system is made up of Distributed Feedback Laser, 3X1 coupling mechanism, gyroscope, 3dB-coupling mechanism, fiber grating FBG, optical fiber self-focus lens GRIN, piezoelectric ceramics PZT, measurement catoptron, reference mirror, detector PD, signal circuit processing, phase measurement, feedback control circuit, A/D transition card, signal generator, computing machine, output result.Utilize three wavelength all at the 1550nm wave band, but wavelength have nothing in common with each other and is respectively λ ₁, λ ₂, λ ₃Distributed Feedback Laser as light source, the light that three laser instruments send is coupled into measuring system through the 3X1 coupling mechanism.Utilize the characteristic of fiber grating reflection bragg wavelength, interfering the end of arms to write a fiber grating that parameter is identical respectively at two of the optical fiber Michelson interferometer that is used to measure, is that catoptron constitutes another again and is used for stable optical fiber Michelson interferometer with these two fiber gratings; Measuring optical fiber Michelson interferometer and stable fiber Michelson interferometer have separately independently catoptron, the gage beam of two interferometers and the light path of reference arm almost overlap, to be wrapped on the piezoelectric ceramic tube PZT1 as the optical fiber of reference arm, feedback control circuit drives piezoelectric ceramic tube PZT1, regulate the length of reference arm, compensation since temperature drift and ambient vibration to the influence of stable fiber Michelson interferometer, make two of the stable fiber Michelson interferometer to interfere arm to be in quadrature (two phase differential pi/2s of interfering arm) all the time, the stable fiber Michelson interferometer is just stable like this, because the light path of measuring optical fiber Michelson interferometer almost overlaps with the light path of stable fiber Michelson interferometer, the measuring optical fiber Michelson interferometer is also stable, the frequency response range of feedback control circuit is 0～5kHz, that is to say that feedback control circuit can the correction-compensation frequency be the influence of the undesired signal of 0～5kHz to measuring system, makes that measuring system is applicable to on-line measurement.Because the characteristic of the characteristic of fiber grating reflection bragg wavelength and chirped fiber grating reflection special spectrum, the light medium wavelength that three Distributed Feedback Lasers are sent is λ ₁Light action in the stable fiber Michelson interferometer, finish steady operation, other two wavelength are λ ₂, λ ₃Light action in the measuring optical fiber Michelson interferometer, form synthesis wave to interfere, finish surveying work.Synthetic wavelength is

λ_{s} = \frac{λ_{2} λ_{3}}{λ_{2} - λ_{3}},

Be far longer than λ ₂, λ ₃, native system can be measured bench height.Regulate the position of reference mirror, the initial phase difference that makes two arms of measuring optical fiber Michelson interferometer is zero, because the variation of bench height when causing that Δ d changes, the initial phase difference of two arms will become when the light path of gage beam So the variable quantity of initial phase difference is directly proportional with the variable quantity of bench height, realize measurement to bench height by the variable quantity of measuring initial phase difference.

Beneficial effect of the present invention mainly contains two:

1, this measuring system is applicable to on-line measurement.System utilizes the characteristic of fiber grating reflection bragg wavelength to constitute two stable fiber Michelson interferometers that are combined with each other and measuring optical fiber Michelson interferometer, make two of the stable fiber Michelson interferometer to interfere arm to be in quadrature all the time by feedback control circuit, make the stable fiber Michelson interferometer stable, thereby make the measuring optical fiber Michelson interferometer also stable, make system be applicable to on-line measurement.

2, this measuring system can be measured bench height.Method with synthesis wave to interfere enlarges interferometry range, synthetic wavelength

λ_{s} = \frac{λ_{2} λ_{3}}{λ_{2} - λ_{3}},

Be far longer than optical wavelength λ ₂And λ ₃, the maximum height of the step that can measure is λ _s/ 2, can be by regulating optical wavelength λ ₂And λ ₃Size obtain the synthetic wavelengths of different sizes, realize step height measurement to differing heights.

Description of drawings

Fig. 1 is the fundamental diagram of prior art document [1];

Fig. 2 is the fundamental diagram of prior art document [2];

Fig. 3 is a fundamental diagram of the present invention.

Mark among the figure: DFB-laser instrument, FBG-fiber grating, CFBG4-chirped fiber grating, PZT1-piezoelectric ceramic tube, the stacked piezoelectric ceramics of PZT2-, GRIN-fiber collimating lenses, PD-detector.

Embodiment

Below in conjunction with accompanying drawing 3 and embodiment the present invention is further described.

As shown in Figure 3, the parameter of fiber grating FBG1, FBG2 and FBG3 is identical, and the bragg wavelength of reflection is identical, is λ ₁The reflectance spectrum of chirped fiber grating CFBG4 comprises λ ₂, λ ₃, but do not comprise λ ₁Fiber grating FBG1 and FBG2 write on two ends of interfering arm of measuring optical fiber Michelson interferometer respectively, like this, with fiber grating FBG1 and FBG2 is that catoptron constitutes the stable fiber Michelson interferometer again, and the light path of stable fiber Michelson interferometer and measuring optical fiber Michelson interferometer almost overlaps.Wavelength is all at the 1550nm wave band but the wavelength difference is respectively λ ₁, λ ₂, λ ₃The light that three Distributed Feedback Lasers send is coupled into measuring system through the 3X1 coupling mechanism, and through being divided into two-way behind gyroscope 1 and the 3dB-coupling mechanism, when two-way light arrived fiber grating FBG1 and FBG2, wavelength was λ ₁Light be reflected, wavelength is λ ₂, λ ₃Transmittance; The two-way wavelength X that is reflected ₁Light pass through the 3dB-coupling mechanism once more, meet at 3dB-coupling mechanism place and interfere, one road interference signal is through

gyroscope

1 and 2 and chirped fiber grating CFBG4, survey by detector PD1, another road interference signal is reflected by fiber grating FBG3 through gyroscope 3 backs, pass through gyroscope 3 once more, survey by detector PD2.The signal that detector PD1 and PD2 detect is handled through feedback control circuit, act on the piezoelectric ceramic tube PZT1 as feedback signal, the reference arm of fibre optic interferometer is wrapped on the PZT1, feedback signal drives the length that PZT1 regulates optical fiber, regulate the light path of reference arm with this, make two of the stable fiber Michelson interferometer to interfere arm to be in quadrature (interfering the phase differential of arm to be always pi/2 for two) all the time, this just compensates and has revised the influence of interference such as temperature drift and ambient vibration to the stable fiber Michelson interferometer, has realized stablizing the stable fiber Michelson interferometer.Because the light path of measuring optical fiber Michelson interferometer almost overlaps with the light path of stable fiber Michelson interferometer, so the measuring optical fiber Michelson interferometer is also stable.The operating frequency range of this feedback control circuit is 0～5kHz, that is to say that this feedback control circuit can revise and compensate the undesired signal of 0～5kHz, make the measuring optical fiber Michelson interferometer accurately carry out surveying work, make measuring system be applicable to on-line measurement.Seeing through fiber grating FBG1 and FBG2 wavelength is λ ₂And λ ₃Two-way light respectively through two fiber collimating lenses GRIN, be collimated into parallel beam, respectively by reference mirror with measure mirror reflects and go back to system, pass through fiber grating FBG1 and FBG2 once more, and meet at the 3dB-coupling mechanism, synthesis wave to interfere takes place, synthetic wavelength is

λ_{s} = \frac{λ_{2} λ_{3}}{λ_{2} - λ_{3}},

One road synthesis wave to interfere signal by chirped fiber grating CFBG4 reflection, passes through gyroscope 2 backs by guiding system through

gyroscope

1 and 2 once more, behind another road interference signal process gyroscope 3 and the fiber grating FBG3, is surveyed by detector PD3.When bench height changes, the phase place of synthesis wave to interfere signal will change.When bench height changes delta d, the phase changing capacity of synthesis wave to interfere signal is:

λ in the formula _sBe synthetic wavelength.As long as demodulate the phase changing capacity Δ  of interference signal as can be known,, can measure the changes delta d of bench height by equation (1) through data processing.For this reason, system adds periodic sawtooth voltage to the piezoelectric ceramics PZT2 in the reference path, periodically the light path of linear regulation reference path.Regulate the amplitude and the reference path light path of sawtooth voltage, make periodic sawtooth voltage and interference signal with the cycle same-phase.When bench height changes delta d, the phase place of sawtooth voltage is just different with the phase place of this interference signal, measures the phase differential between the two, through after the data processing, promptly obtains tested displacement variation delta d value.

Above-mentioned instantiation has been described in realization in order to demonstrate the invention.But other variations of the present invention and modification it will be apparent to those skilled in the art that, in the essence of the disclosed content of the present invention and any modification/variation in the cardinal rule scope or imitate conversion all to belong to claim protection domain of the present invention.

Claims

1. synthetic wave for interfering step height on-line measurement system that utilizes fiber grating is characterized in that it comprises to be combined with each other and two optical fiber Michelson interferometers that light path almost overlaps, corresponds respectively to and measures loop and feedback control loop; It is made up of laser instrument DFB, 3 * 1 coupling mechanisms, 3dB-coupling mechanism, optical fiber gyroscope, fiber grating (FBG), chirped fiber grating (CFBG), detector (PD), optical fiber self-focus lens (GRIN), measurement catoptron and reference mirror, piezoelectric ceramics (PZT), feedback control circuit, signal circuit processing, phase measurement, A/D transition card, signal generator, computing machine, output result; Interfering the end of arms to write a fiber grating that parameter is identical respectively at two of the optical fiber Michelson interferometer that is used to measure, is that catoptron has constituted another again and is used for stable optical fiber Michelson interferometer with these two fiber gratings; These two interferometers are combined with each other, have individual mirrors, light path almost to overlap; Regulate the length of the reference arm of optical fiber Michelson interferometer by feedback control circuit drive pressure electroceramics, make with the fiber grating is that two of the optical fiber Michelson interferometer of catoptron interfere arms to be in quadrature (two are interfered the phase differential of arms is pi/2), like this, just compensate and revised ambient vibration and temperature drift to being the influence of the optical fiber Michelson interferometer of catoptron with the fiber grating, reached the purpose of stablizing this interferometer; Because the light path of two interferometers almost overlaps,, thereby make this system be applicable to on-line measurement so another optical fiber Michelson interferometer that is used to measure is also stable; The light that the laser instrument that three wavelength have nothing in common with each other sends is coupled into measuring system by 3 * 1 coupling mechanisms, because the characteristic of fiber grating reflection bragg wavelength and chirped fiber grating reflection special spectrum, make light action that a laser instrument sends in the stable fiber Michelson interferometer, be used for the stably measured system, the light action that other two laser instruments send is in the measuring optical fiber Michelson interferometer, form synthesis wave to interfere, finish surveying work; Regulate the position of reference mirror, the initial phase difference that makes two arms of measuring optical fiber Michelson interferometer is zero, by piezoelectric ceramics the light path of its reference arm is modulated, the phase differential of two arms that makes the measuring optical fiber Michelson interferometer is by 2 π that are increased to of zero line; Because the variation of bench height when causing the variation of Δ d, the initial phase difference of two arms is changed to when the light path of gage beam

(λ _sBe synthetic wavelength,

λ_{s} = \frac{λ_{2} λ_{3}}{λ_{2} - λ_{3}}

), the variable quantity of initial phase difference is directly proportional with the variable quantity of bench height, realizes measurement to bench height by the variable quantity of measuring initial phase difference.

2. according to the said a kind of step height on-line measuring system that utilizes fiber grating of claim 1, it is characterized in that: interfere the end of arm to write a fiber grating that parameter is identical respectively for two at an optical fiber Michelson interferometer, utilize the characteristic of fiber grating reflection bragg wavelength to constitute two two optical fiber Michelson interferometers that the light path that is combined with each other almost overlaps, one of them interferometer is finished steady operation, another interferometer is finished surveying work, thereby makes measuring system be applicable to on-line measurement.

3. according to the said a kind of step height on-line measuring system that utilizes fiber grating of claim 1, it is characterized in that: the light wavelength that three laser instruments send is all at the 1550nm wave band, and wavelength has nothing in common with each other, and is respectively λ ₁, λ ₂And λ ₃, because the effect of fiber grating reflection bragg wavelength and chirped fiber grating reflection special spectrum makes wavelength X ₁Act in the stable fiber Michelson interferometer, the stably measured system makes measuring system be applicable to on-line measurement; Wavelength X ₂And λ ₃Act in the measuring optical fiber Michelson interferometer, form synthesis wave to interfere, realize measurement bench height; Synthetic wavelength

λ_{s} = \frac{λ_{2} λ_{3}}{λ_{2} - λ_{3}},

The maximal value of measurable bench height is to λ _s/ 2; By regulating λ ₂And λ ₃Obtain the synthetic wavelength of different sizes, realize measurement the differing heights step.